Persistent Identifier
|
doi:10.18738/T8/XPMLCC |
Publication Date
|
2024-02-20 |
Title
| COLDEX Unfocused Airborne VHF Radar Transects: 2022-2023 South Pole Field Season |
Author
| Young, Duncan (University of Texas Institute for Geophysics) - ORCID: 0000-0002-6866-8176
Greenbaum, Jamin S. (Scripps Institute for Oceanography) - ORCID: 0000-0002-0745-7113
Kerr, Megan E. (Jackson School of Geosciences, University of Texas at Austin) - ORCID: 0009-0004-8273-5410
Singh, Shivangini (Jackson School of Geosciences, University of Texas at Austin)
Chan, Kristian (Jackson School of Geosciences, University of Texas at Austin) - ORCID: 0000-0002-9242-8180
Buhl, Dillon P. (University of Texas Institute for Geophysics)
Ng, Gregory C. (University of Texas Institute for Geophysics)
Kempf, Scott D. (University of Texas Institute for Geophysics)
Echeverry, Gonzalo (University of Texas Institute for Geophysics)
Blankenship, Donald D. (University of Texas Institute for Geophysics) - ORCID: 0000-0003-0205-4830 |
Point of Contact
|
Use email button above to contact.
Young, Duncan (University of Texas at Austin) |
Description
| These transect organized radargrams were collected as part of the Center for Oldest Ice Exploration (COLDEX) Science and Technology Center (https://www.coldex.org) in the 2022/23 (CXA1) airborne reconnaissance field season. The raw 3 TB data is deposited at the USAP data center at https://doi.org/10.15784/601768. Flight organized data with additional processing by the University of Kansas to remove electromagnetic interference can be found at the Open Polar Radar server (https://www.openpolarradar.org). The science goal was to characterize the ice sheet between Antarctica's Dome A and Amundsen Scott South Pole Station, to locate sites of interest for the drilling of an ice core with ages spanning the mid-Pleistocene. The radar was deployed on Balser C-FMKB, and flown at ranges of up to 800 km from South Pole Station at velocities of 90 m/s and typical altitude above ground of 600 m. Other instruments included a UHF array system provided by the University of Kansas, a gravity meter, a magnetometer, a laser altimeter, and multiple global navigation satellite systems receivers. The radar data is used for finding ice thickness, bed character, englacial structure and surface assessment.
Dataset organization Transects are provided a P/S/T nomenclature, organized by the Project they are flying in, the acquisition System (typically named after the aircraft) and the Transect within the Project.
Transects were collected in preplanned systems with the following parameters:
- CLX radials (CLX/MKB##/R###), attempting to emulate flow lines from Dome A and radiating (in the EPSG:3031 polar stereographic projection) from easting 965 km northing 385 km, with a separation of 0.25 degrees.
- CLX corridor (CLX/MKB##/X###) rotated from the EPSG:3031 polar stereographic projection at -150 degrees and separated by 10 km in the Y direction and 3.75 km in the X direction
- CLX2 corridor (CLX2/MKB##/X###) rotated from the EPSG:3031 polar stereographic projection at -150 degrees and separated by 2.5 km in its Y direction and 2.5 km in its X direction
- SAD corridor (SAD/MKB##/X###|Y####) designed to characterize the Saddle region near South Pole approximately perpendicular to the flow lines, rooted from the EPSG:3031 polar stereographic projection at -73.8 degrees and separated by 2.5 km in its Y direction and 2.5 km in the its X direction
- Untargeted transit lines used the name of the expedition (CXA1) as the project, and used the flight and the increment within the flight to name the Transect (eg (CXA1/MKB2n/F10T02a).
Processing These data represent range compressed VHF radargrams as collected and analyzed in the field. The data are from the MARFA radar system, a 60 MHz ice penetrating radar system that has operated in several different guises over the years. MARFA operates with a 1 microsecond chirp with a design bandwidth of 15 MHz, allowing for ~8 range resolution. The record rate after onboard stacking is 200 Hz. High and low gain channels are collected from antennas on each side of the aircraft. In ground processing, the data were stacked 10x coherently to reduce range delayed incoherent surface scattering, and then stacked 5 times incoherently to improve image quality. In this preliminary processing, the effective resolution of deep scattering is several hundred meters due to range ambiguities at depth.
Data format These data collection represents georeferenced, time registered instrument measurements (L1B data) converted to SI units. The data format are netCDF3 files, following the formats used for NASA/AAD/UTIG's ICECAP/OIB project at NASA's NSIDC DAAC (10.5067/0I7PFBVQOGO5). Metadata fields can be accessed using the open source ncdump tool, or c, python or matlab modules. A Keyhole Metadata Language (KML) file with geolocation for all transects is also provided. See https://www.loc.gov/preservation/digital/formats/fdd/fdd000330.shtml for resources on NetCDF-3, and https://nsidc.org/data/IR2HI1B/versions/1 for a description of the similar OIB dataset.
Acknowledgements This work was supported by the Center for Oldest Ice Exploration, an NSF Science and Technology Center (NSF 2019719). We thank the NSF Office of Polar Programs, the NSF Office of Integrative Activities, and Oregon State University for financial and infrastructure support, and the NSF Antarctic Infrastructure and Logistics Program, and the Antarctic Support Contractor for logistical support. Additional support was provided by the G. Unger Vetlesen Foundation.
(2023-11-18) |
Subject
| Earth and Environmental Sciences |
Keyword
| ice penetrating radar data |
Related Publication
| Peters, M. E., Blankenship, D. D., and Morse, D. L., 2005, Analysis techniques for coherent airborne radar sounding: Application to West Antarctic ice streams, Journal Of Geophysical Research, 110, B06303, 10.1029/2004JB003222 doi: 0.1029/2004JB003222 http://dx.doi.org/10.1029/2004JB003222
Young, D. A., Roberts, J. L., Ritz, C., Frezzotti, M., Quartini, E., Cavitte, M. G. P., Tozer, C. R., Steinhage, D., Urbini, S., Corr, H. F. J., Van Ommen, T., and Blankenship, D. D., 2017, High resolution boundary conditions of an old ice target near Dome C, Antarctica, The Cryosphere, 11, 1--15, https://doi.org/10.5194/tc-11-1897-2017 doi: 10.5194/tc-11-1897-2017 https://doi.org/10.5194/tc-11-1897-2017 |
Language
| English |
Production Date
| 2022-12-10 |
Production Location
| East Antarctica, David Glacier; East Antarctica, Allan Hills; East Antarctica, Dome A; East Antarctica, South Pole; East Antarctica, Hercules Dome; Ross Island, McMurdo Ice Shelf |
Funding Information
| National Science Foundation: 2019719 |
Depositor
| Young, Duncan |
Deposit Date
| 2023-11-18 |
Date of Collection
| Start Date: 2022-12-10 ; End Date: 2023-01-29 |
Data Type
| NetCDF files |
Software
| unfoc.py, Version: e20f4e0 |
Related Dataset
| COLDEX Raw MARFA Ice Penetrating Radar data (https://doi.org/10.15784/601768) |